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//J. M. Quesada (July 08) 

#ifndef G4PreCompoundProton_h
#define G4PreCompoundProton_h 1

#include "G4PreCompoundNucleon.hh"
#include "G4ReactionProduct.hh"
#include "G4Proton.hh"
#include "G4PreCompoundParameters.hh"
#include "Randomize.hh"
#include "G4ProtonCoulombBarrier.hh"

class G4PreCompoundProton : public G4PreCompoundNucleon
{
public:
  // default constructor
  G4PreCompoundProton():G4PreCompoundNucleon(1,1,&theProtonCoulombBarrier,"Proton") {}

  // copy constructor
  G4PreCompoundProton(const G4PreCompoundProton &right): G4PreCompoundNucleon(right) {}

  // destructor
  ~G4PreCompoundProton() {};

  // operators  
  const G4PreCompoundProton & operator=(const G4PreCompoundProton &right) {
    if (&right != this) this->G4PreCompoundNucleon::operator=(right);
    return *this;
  };

  G4bool operator==(const G4PreCompoundProton &right) const
  { return G4PreCompoundNucleon::operator==(right);}

  
  G4bool operator!=(const G4PreCompoundProton &right) const
  { return G4PreCompoundNucleon::operator!=(right);}


  G4ReactionProduct * GetReactionProduct() const;
 
  
private:

//JMQ (Sep. 07) combinatorial factor Rj
  virtual G4double GetRj(const G4int NumberParticles, const G4int NumberCharged);

  virtual G4double CrossSection(const  G4double K) ; 


  G4double GetOpt0(const G4double K);
  G4double GetOpt1(const G4double K);
  G4double GetOpt2(const G4double K);
  G4double GetOpt3(const G4double K);

  G4double GetAlpha();
  
  G4double GetBeta();

//data members

      G4ProtonCoulombBarrier theProtonCoulombBarrier;
       G4double ResidualA;
      G4double ResidualZ; 
      G4double theA;
      G4double theZ;
      G4double ResidualAthrd;
      G4double FragmentA;
      G4double FragmentAthrd;


 
};
#endif